CN100463341C - Voltage-adjustable voltage switching circuit - Google Patents

Abstract

Changing value of variable voltage source adjusts the output voltage of the voltage conversion circuit composed of a pulse width modulation circuit and a feedback circuit. The pulse width modulation circuit supplies the output voltage in pulse mode. Through changing width, frequency or distributing rule of pulse changes value or frequency of the output voltage. The feedback circuit includes resistance string composed of multiple cascaded resistances. One end of the resistance string is coupled to the variable voltage source. The one end of the pulse width modulation circuit is coupled between two adjacent series resistances in the resistance string.

Description

The voltage conversion circuit of adjustable-voltage

Technical field

The present invention relates to a kind of voltage conversion circuit of adjustable-voltage, particularly relate to a kind of voltage conversion circuit of adjusting output voltage by the value that changes variable voltage source.

Background technology

Enjoy in order to satisfy human vision, display has been the device that modern society popularizes very much.Along with scientific and technological progress, the quality of display promotes gradually, and the kind of display is also more and more on the market.Because LCD (Liquid Crystal Display; LCD) has in light weight, low power consumption, and advantage such as low radiation, therefore LCD has been widely used in multiple on the market portable information product, for example mobile computer (notebook) and personal digital assistant (Personal Digital Assistant; Commodity such as PDA).In addition, LCD screen and LCD TV are also popularized gradually, replace traditional cathode ray tube (cathode ray tube gradually; CRT) display and TV.

Film liquid crystal display (Thin Film Transistor Liquid Crystal Display; TFT-LCD) be a kind of of photovoltaic midplane display, a thin-film transistor (TFT) that is come out by polysilicon (polysilicon) technology made is all arranged on each pixel within it.Because many advantages such as film liquid crystal display has that volume is little, light weight, high reaction speed, low power consumption, high contrast ratio, wide visual angle, low radiation and built-in driving loop, also transfer information products to by consumption electronic products gradually, and the trend of more and more large-scale change is arranged.

The running of film liquid crystal display needs every driving voltage, and for example dummy source voltage (AVDD), grid cut-in voltage (VGH), grid are closed voltage driving voltages such as (VGL).Please refer to Fig. 1, Fig. 1 is the schematic diagram of the drive circuit 10 of a film liquid crystal display in the known technology.Drive circuit 10 comprises a pulse width modulation (Pulse Width Modulation; PWM) circuit 12 and a feedback circuit 14, required output voltage V o in the time of input voltage Vi can being converted to film liquid crystal display 10 running.Pulse width regulating circuit 12 can be supplied with output voltage V o with the driving voltage as film liquid crystal display 10 by pulse mode, and changes numerical value and the frequency of output voltage V o by width, frequency or the distribution rule that changes pulse.Feedback circuit 14 produces a reference voltage Vref by resistance R 1 and resistance R 2 after with output voltage V o dividing potential drop, reference voltage Vref is fed back to pulse width regulating circuit 12 again, makes output voltage V o that output stably can be arranged.In the drive circuit 10 of known technology, the value of output voltage V o is changeless, and the value of output voltage V o can be by following formulate:

V0＝(R1+R2)*Vref/R2

Please refer to Fig. 2, Fig. 2 is the functional schematic of a voltage transformation module 20 in the known technology.Voltage transformation module 20 adopts the structure of drive circuits 10, can be with Vi1, Vi2, Vi3 ..., input voltages such as Vim are converted to film liquid crystal display required driving voltage Vo1, Vo2, Vo3 when running ..., Von etc.The number m of input voltage and driving voltage can design according to different demands with n.After voltage transformation module 20 was finished at film liquid crystal display design, no matter the number of input voltage and driving voltage why, and the value of input voltage is all fixing, and its corresponding value that produces driving voltage also can't change.

But because the state of arts difference of each wafer factory, the film liquid crystal display product performance curve of same kind also can be variant, adopts same driving voltage design can not reach best display effect.In addition, need analyze, when for example relevant with TFT characteristic image quality inequality (centermura) etc. detects or analyzes, also need flexibly driving voltage to be regulated when product has special defective.Because the driving voltage that known technology produced is a fixed value, and can't change at the different product characteristic curve, or is detecting or analyzing flexibly and adjust.

Summary of the invention

Therefore main purpose of the present invention is to provide a kind of voltage conversion circuit of adjustable-voltage, to solve the problem of known technology.

The present invention discloses a kind of voltage conversion circuit of adjustable-voltage, it comprises a pulse width regulating circuit, is used for supplying with output voltage with pulse mode, and changes the numerical value or the frequency of output voltage by width, frequency or the distribution rule that changes pulse; And a feedback circuit, it comprises the resistance string of being made up of a plurality of series resistance, and first end of this resistance string is coupled in one first variable voltage source, and is coupled in an input of this pulse width regulating circuit between the two adjacent series resistances of this resistance string.

The present invention has also disclosed a kind of integrated circuit of adjustable-voltage, and it comprises a voltage conversion circuit, a feedback circuit, an input voltage source, and a load.This voltage conversion circuit comprises a pulse width regulating circuit, be used for supplying with output voltage with pulse mode, and change the numerical value or the frequency of output voltage by width, frequency or the distribution rule that changes pulse, and a feedback circuit, it comprises the resistance string of being made up of a plurality of series resistance.First end of this resistance string is coupled in one first variable voltage source, and is coupled in an input of this pulse width regulating circuit between the two adjacent series resistances of this resistance string.This input voltage source is coupled in the input of this voltage conversion circuit.This load is coupled in the output of this voltage conversion circuit.

According to an aspect of the present invention, a kind of voltage conversion circuit of adjustable-voltage is provided, it comprises: a pulse width regulating circuit is used for the pulse mode control output voltage, and changes the numerical value or the frequency of output voltage by width, frequency or the distribution rule that changes pulse; An and feedback circuit, it comprises the resistance string of being made up of a plurality of series resistance, first end of this resistance string is coupled in one first variable voltage source, second end of this resistance string is coupled in the output of this voltage conversion circuit, and form a node between per two adjacent series resistances of this resistance string, form at least one node thus, a node in the middle of described at least one node is coupled in an input of this pulse width regulating circuit.

According to a further aspect in the invention, provide a kind of integrated circuit of adjustable-voltage, it comprises: a voltage conversion circuit, and an input voltage source is coupled in the input of this voltage conversion circuit; An and load, be coupled in the output of this voltage conversion circuit, wherein said voltage conversion circuit comprises: a pulse width regulating circuit is used for the pulse mode control output voltage, and changes the numerical value or the frequency of output voltage by width, frequency or the distribution rule that changes pulse; An and feedback circuit, it comprises the resistance string of being made up of a plurality of series resistance, first end of this resistance string is coupled in one first variable voltage source, second end of this resistance string is coupled in the output of this voltage conversion circuit, and form a node between per two adjacent series resistances of this resistance string, form at least one node thus, a node in the middle of described at least one node is coupled in an input of this pulse width regulating circuit.

The present invention can adjust output voltage by the value that changes variable voltage source, according to the value of state of arts and product performance curve correction driving voltage, to reach best display effect.In addition, when product has some special defectives, when needing detect or analyze the relevant center image quality of film liquid crystal display characteristic is unequal, the present invention also can regulate driving voltage flexibly.

Description of drawings

Fig. 1 is the schematic diagram of the drive circuit of a film liquid crystal display in the known technology.

Fig. 2 is the functional schematic of a voltage transformation module in the known technology.

Fig. 3 is the schematic diagram of the drive circuit of a film liquid crystal display in the first embodiment of the invention.

Fig. 4 is applied to the schematic diagram of a boosted switch formula voltage conversion circuit in the drive circuit of Fig. 3 for the present invention.

Fig. 5 is applied to the schematic diagram of a reverser formula voltage conversion circuit in the drive circuit of Fig. 3 for the present invention.

Fig. 6 is the schematic diagram of the drive circuit of a film liquid crystal display in the second embodiment of the invention.

Fig. 7 is the schematic diagram of the drive circuit of a film liquid crystal display in the third embodiment of the invention.

Fig. 8 is the functional schematic of a voltage transformation module among the present invention.

The reference numeral explanation

12 pulse width regulating circuits

10,30,60,70 drive circuits

20,32,80 voltage transformation modules

14,34,64,74 feedback circuits

35,65,75 resistance string

A, B node

R1, R2 resistance

The Xin signal

Cin, Cout electric capacity

The L inductance

The SW switch module

The CT control circuit

42 boosted switch formula voltage conversion circuits

52 reverser formula voltage conversion circuits

Vi, Vi1-Vim input voltage

Vref, Vref1-Vrefn reference voltage

The Vx1-VX3 variable voltage source

Vo, Vo1-Von output voltage

Embodiment

Please refer to Fig. 3, Fig. 3 is the schematic diagram of the drive circuit 30 of a film liquid crystal display in the first embodiment of the invention.Drive circuit 30 comprises a voltage transformation module 32 and a feedback circuit 34, input voltage Vi can be converted to film liquid crystal display at required output voltage V o of when running.In first embodiment of the invention, the resistance string 35 of feedback circuit 34 comprises two series resistance R1 and R2, and an end of resistance string 35 is coupled in the output of drive circuit 30, and the other end is coupled in a variable voltage source Vx1.Feedback circuit 34 by resistance R 1 and R2 with output voltage V o dividing potential drop, produce a reference voltage Vref in node A, again reference voltage Vref is fed back to voltage transformation module 32, voltage transformation module 32 is revised output voltage V o according to reference voltage Vref again, so that output voltage V o can export reposefully.In drive circuit 30 of the present invention, the value of output voltage V o can be by following formulate:

$\mathrm{Vo}=\frac{(R1+R2)}{R2}\×(\mathrm{Vref}-\mathrm{Vx}1)+\mathrm{Vx}1$

Voltage transformation module 32 can be a boosted switch formula voltage conversion circuit (boost converter) 42 or one reverser formula voltage conversion circuit (buck converter) 52, is shown in Fig. 4 and Fig. 5 respectively.In Fig. 4 and Fig. 5, Cin and Cout are buffer capacitor, are used for stablizing input voltage Vi and output voltage V o respectively.Switch module SW can be a metal oxide semiconductcor field effect transistor (Metal OxideSemiconductor Field Effect Transistor; MOSFET), bipolar junction transistor (bipolarjunction transistor; BJT) or the assembly of the similar switching function of other tool, diode D can be a Schottky diode (Schottky Diode) or other has the assembly of similar switching function, and switch module SW and diode D can be used to control the current path in the voltage transformation module 32.Inductance L is coupled between the input and output of boosted switch formula voltage conversion circuit 42 and reverser formula voltage conversion circuit 52, is used to provide an input current.Control circuit CT can be a pulse width modulation (Pulse WidthModulation; PWM) circuit is supplied with output voltage V o with the driving voltage as film liquid crystal display by pulse mode, and changes numerical value and the frequency of output voltage V o by width, frequency or the distribution rule that changes pulse.Voltage conversion circuit 42 and reverser formula voltage conversion circuit 52 only are the embodiment of voltage transformation module 32 of the present invention, and the present invention also can adopt the voltage conversion circuit of other kind.

Because in feedback circuit 34 of the present invention, resistance string 35 is coupled between the output and variable voltage source Vx of drive circuit 30, therefore adopt the film liquid crystal display of drive circuit 30 of the present invention to adjust output voltage V o by the value that changes variable voltage source Vx, according to the value of state of arts and product performance curve correction driving voltage, to reach best display effect.In addition, when product has some special defectives, when needing the relevant center image quality inequality (center mura) of film liquid crystal display characteristic etc. detected or analyze, the present invention also can regulate driving voltage flexibly.

Please refer to Fig. 6, Fig. 6 is the schematic diagram of the drive circuit 60 of a film liquid crystal display in the second embodiment of the invention.Drive circuit 60 and drive circuit 30 differences are that drive circuit 60 comprises a feedback circuit 64.In the feedback circuit 64 of second embodiment of the invention, resistance string 65 comprises three resistance R 1, R2 and R3.The end of resistance R 1, R2 and R3 is coupled in output, a variable voltage source Vx2 and a variable voltage source Vx1 of drive circuit 60 respectively, and the other end of resistance R 1, R2 and R3 is coupled in node A.Feedback circuit 64 by resistance R 1, R2 and R3 with output voltage V o dividing potential drop, produce a reference voltage Vref in node A, again reference voltage Vref is fed back to voltage transformation module 32, voltage transformation module 32 is revised output voltage V o according to reference voltage Vref again, makes output voltage V o that output stably can be arranged.The drive circuit 60 of second embodiment of the invention can be adjusted output voltage V o by the value that changes variable voltage source Vx1 and Vx2, and this moment, the value of output voltage V o can be by following formulate:

$\mathrm{Vo}=\frac{(R1R2+R2R3+R1R3)\mathrm{Vref}-R1R2\mathrm{Vx}1-R1R3\mathrm{Vx}2}{R2R3}$

In drive circuit 60, variable voltage source Vx2 also can be fixed voltage.If variable voltage source Vx2 is earthing potential, the drive circuit 60 of second embodiment of the invention can be adjusted output voltage V o by the value that changes variable voltage source Vx1, and this moment, the value of output voltage V o can be by following formulate:

$\mathrm{Vo}=\frac{(R1R2+R2R3+R1R3)\mathrm{Vref}-R1R2\mathrm{Vx}1}{R2R3}$

Please refer to Fig. 7, Fig. 7 is the schematic diagram of the drive circuit 70 of a film liquid crystal display in the third embodiment of the invention.Drive circuit 70 and drive circuit 30 differences are that drive circuit 70 comprises a feedback circuit 74.In the feedback circuit 74 of third embodiment of the invention, resistance string 75 comprises three series resistance R1, R2 and R3.Resistance string 75 is coupled between the output and a variable voltage source Vx3 of drive circuit 70, and a variable voltage source Vx1 is coupled in the Node B between resistance R 2 and the R3.Feedback circuit 74 by resistance R 1, R2 and R3 with output voltage V o dividing potential drop, produce a reference voltage Vref in node A, again reference voltage Vref is fed back to voltage transformation module 32, voltage transformation module 32 is revised output voltage V o according to reference voltage Vref again, so that output voltage V o can export reposefully.The drive circuit 70 of third embodiment of the invention can be adjusted output voltage V o by the value that changes variable voltage source Vx1 and Vx3, and this moment, the value of output voltage V o can be by following formulate:

$\mathrm{Vo}=\frac{(R1+R2+R3)\×(\mathrm{Vref}-\mathrm{Vx}1)}{R2}+\mathrm{Vx}3$

In drive circuit 70, variable voltage source Vx1 also can be fixed voltage.If variable voltage source Vx1 is earthing potential, the drive circuit 70 of third embodiment of the invention can be adjusted output voltage V o by the value that changes variable voltage source Vx3, and the value of output voltage V o can be by following formulate:

$\mathrm{Vo}=\frac{(R1+R2+R3)}{R2}+\mathrm{Vx}3$

In the present invention first to the 3rd embodiment, the mode of adjusting variable voltage source Vx1-Vx3 can be by outside input or inner the generation.If, can on the circuit board of film liquid crystal display, increase an input terminal newly, supply with signal by test machine or external system by outside input.In addition, a certain terminal that also can be by existing interface, an idle difference signal terminal for example, or share with automatic operational mode (aging mode) terminal.If produce by inner, can in the nonvolatile memory (Non-Volatile Random Access Memory) of film liquid crystal display, store the data of adjusting variable voltage source Vx1-Vx3, export aforementioned adjustable voltage by the digital-to-analogue conversion integrated circuit again.The nonvolatile memory of film liquid crystal display can be edited by external circuits, and can integrate with the long-pending body electricity of digital-to-analogue conversion and become one and integrate integrated circuit, nonvolatile memory and integrate integrated circuit and also can combine with application-specific integrated circuit (ASIC) (ASIC) or other integrated circuit of film liquid crystal display.

Please refer to Fig. 8, Fig. 8 is the functional schematic of voltage transformation module 80 of the present invention.Voltage transformation module 80 can adopt the structure of drive circuit 30,60 or 70, can be with Vi1, Vi2, Vi3, ..., input voltages such as Vim are converted to required driving voltage Vo1, Vo2, the Vo3 of running of film liquid crystal display, ..., Von etc., and pass through a controlling signal Xin with feedback signal Vref1, Vref2, Vref3, ..., Vrefn etc. pass voltage transformation module 80 back with regulated output voltage.The number m of input voltage and driving voltage can design according to different demands with n.

The driving voltage that known technology produced is a fixed value, can't change at the different product characteristic curve, or detect or analyzing flexibly and adjust.Compared to known technology, the present invention can adjust output voltage V o by the value that changes variable voltage source Vx1-Vx3, according to the value of state of arts and product performance curve correction driving voltage, to reach best display effect.In addition, when product has some special defectives, when needing detect or analyze the relevant center image quality of film liquid crystal display characteristic is unequal, the present invention also can regulate driving voltage flexibly.

The above only is preferred embodiment of the present invention, and all equalizations of doing according to claim of the present invention change and modify, and all should belong to covering scope of the present invention.

Claims (15)

1. the voltage conversion circuit of an adjustable-voltage, it comprises:

One pulse width regulating circuit is used for the pulse mode control output voltage, and changes the numerical value or the frequency of output voltage by width, frequency or the distribution rule that changes pulse; And

One feedback circuit, it comprises the resistance string of being made up of a plurality of series resistance, first end of this resistance string is coupled in one first variable voltage source, second end of this resistance string is coupled in the output of this voltage conversion circuit, and form a node between per two adjacent series resistances of this resistance string, form at least one node thus, a node in the middle of described at least one node is coupled in an input of this pulse width regulating circuit.

2. circuit as claimed in claim 1, wherein feedback circuit also comprises a resistance, and first end of this resistance is coupled between the two adjacent series resistances of this resistance string, and second end of this resistance is coupled in a voltage source.

3. circuit as claimed in claim 2, wherein this voltage source is one second variable voltage source.

4. circuit as claimed in claim 1, wherein feedback circuit also comprises a resistance, and first end of this resistance is coupled between the two adjacent series resistances of this resistance string, and second end of this resistance is coupled in earthing potential.

5. circuit as claimed in claim 1, wherein feedback circuit also comprises a resistance, and first end of this resistance is coupled between first end and this first variable voltage source of this resistance string, and second end of this resistance is coupled in one second variable voltage source.

6. the integrated circuit of an adjustable-voltage, it comprises:

One voltage conversion circuit,

One input voltage source is coupled in the input of this voltage conversion circuit; And

One load is coupled in the output of this voltage conversion circuit,

Wherein said voltage conversion circuit comprises:

One pulse width regulating circuit is used for the pulse mode control output voltage, and changes the numerical value or the frequency of output voltage by width, frequency or the distribution rule that changes pulse; And

One feedback circuit, it comprises the resistance string of being made up of a plurality of series resistance, first end of this resistance string is coupled in one first variable voltage source, second end of this resistance string is coupled in the output of this voltage conversion circuit, and form a node between per two adjacent series resistances of this resistance string, form at least one node thus, a node in the middle of described at least one node is coupled in an input of this pulse width regulating circuit.

7. integrated circuit as claimed in claim 6, wherein this voltage conversion circuit also comprises a resistance, and first end of this resistance is coupled between the two adjacent series resistances of this resistance string, and second end of this resistance is coupled in a voltage source.

8. integrated circuit as claimed in claim 7, wherein this voltage source is one second variable voltage source.

9. integrated circuit as claimed in claim 6, wherein this voltage conversion circuit also comprises a resistance, and first end of this resistance is coupled between the two adjacent series resistances of this resistance string, and second end of this resistance is coupled in earthing potential.

10. integrated circuit as claimed in claim 6, wherein this voltage conversion circuit also comprises a resistance, and first end of this resistance is coupled between first end and this first variable voltage source of this resistance string, and second end of this resistance is coupled in one second variable voltage source.

11. integrated circuit as claimed in claim 6, it also comprises an inductance, is coupled between the input and output of this voltage conversion circuit, is used to provide an input current.

12. integrated circuit as claimed in claim 6, it also comprises a switch module, be coupled between the input and output of this voltage conversion circuit, this switch module provides electric current to be flowed to the path of the output of this voltage conversion circuit by the input of this voltage conversion circuit when opening.

13. integrated circuit as claimed in claim 12, wherein this switch module is a Schottky diode.

14. integrated circuit as claimed in claim 6, it also comprises a buffer circuit, is coupled in the output of this voltage conversion circuit, is used for stablizing the output voltage of this voltage conversion circuit.

15. integrated circuit as claimed in claim 14, wherein this buffer circuit comprises an electric capacity.

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